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tbd-station-14/Content.Server/GameObjects/Components/Power/PowerStorageComponent.cs
PJB3005 1dabe49234 VV support.
2018-09-09 15:34:43 +02:00

217 lines
6.9 KiB
C#
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using Content.Shared.GameObjects.Components.Power;
using SS14.Shared.GameObjects;
using SS14.Shared.Interfaces.GameObjects;
using SS14.Shared.IoC;
using SS14.Shared.Serialization;
using SS14.Shared.Utility;
using System;
using SS14.Shared.ViewVariables;
using YamlDotNet.RepresentationModel;
namespace Content.Server.GameObjects.Components.Power
{
/// <summary>
/// Feeds energy from the powernet and may have the ability to supply back into it
/// </summary>
public class PowerStorageComponent : Component
{
public override string Name => "PowerStorage";
public ChargeState LastChargeState { get; private set; } = ChargeState.Still;
public DateTime LastChargeStateChange { get; private set; }
/// <summary>
/// Maximum amount of energy the internal battery can store.
/// In Joules.
/// </summary>
[ViewVariables]
public float Capacity => _capacity;
private float _capacity = 10000; // Arbitrary value, replace.
/// <summary>
/// Energy the battery is currently storing.
/// In Joules.
/// </summary>
[ViewVariables]
public float Charge => _charge;
private float _charge = 0;
/// <summary>
/// Rate at which energy will be taken to charge internal battery.
/// In Watts.
/// </summary>
[ViewVariables]
public float ChargeRate => _chargeRate;
private float _chargeRate = 1000;
/// <summary>
/// Rate at which energy will be distributed to the powernet if needed.
/// In Watts.
/// </summary>
[ViewVariables]
public float DistributionRate => _distributionRate;
private float _distributionRate = 1000;
[ViewVariables]
public bool Full => Charge >= Capacity;
private bool _chargepowernet = false;
/// <summary>
/// Do we distribute power into the powernet from our stores if the powernet requires it?
/// </summary>
[ViewVariables(VVAccess.ReadWrite)]
public bool ChargePowernet
{
get => _chargepowernet;
set
{
_chargepowernet = value;
if (Owner.TryGetComponent(out PowerNodeComponent node))
{
if (node.Parent != null)
node.Parent.UpdateStorageType(this);
}
}
}
public override void ExposeData(ObjectSerializer serializer)
{
base.ExposeData(serializer);
serializer.DataField(ref _capacity, "capacity", 10000);
serializer.DataField(ref _charge, "charge", 0);
serializer.DataField(ref _chargeRate, "chargerate", 1000);
serializer.DataField(ref _distributionRate, "distributionrate", 1000);
serializer.DataField(ref _chargepowernet, "chargepowernet", false);
}
public override void OnAdd()
{
base.OnAdd();
if (!Owner.TryGetComponent(out PowerNodeComponent node))
{
Owner.AddComponent<PowerNodeComponent>();
node = Owner.GetComponent<PowerNodeComponent>();
}
node.OnPowernetConnect += PowernetConnect;
node.OnPowernetDisconnect += PowernetDisconnect;
node.OnPowernetRegenerate += PowernetRegenerate;
}
public override void OnRemove()
{
if (Owner.TryGetComponent(out PowerNodeComponent node))
{
if (node.Parent != null)
{
node.Parent.RemovePowerStorage(this);
}
node.OnPowernetConnect -= PowernetConnect;
node.OnPowernetDisconnect -= PowernetDisconnect;
node.OnPowernetRegenerate -= PowernetRegenerate;
}
base.OnRemove();
}
/// <summary>
/// Checks if the storage can supply the amount of charge directly requested
/// </summary>
public bool CanDeductCharge(float todeduct)
{
if (Charge > todeduct)
return true;
return false;
}
/// <summary>
/// Deducts the requested charge from the energy storage
/// </summary>
public void DeductCharge(float todeduct)
{
_charge = Math.Max(0, Charge - todeduct);
LastChargeState = ChargeState.Discharging;
LastChargeStateChange = DateTime.Now;
}
public void AddCharge(float charge)
{
_charge = Math.Min(Capacity, Charge + charge);
LastChargeState = ChargeState.Charging;
LastChargeStateChange = DateTime.Now;
}
/// <summary>
/// Returns the amount of energy that can be taken in by this storage in the specified amount of time.
/// </summary>
public float RequestCharge(float frameTime)
{
return Math.Min(ChargeRate * frameTime, Capacity - Charge);
}
/// <summary>
/// Returns the amount of energy available for discharge in the specified amount of time.
/// </summary>
public float AvailableCharge(float frameTime)
{
return Math.Min(DistributionRate * frameTime, Charge);
}
public ChargeState GetChargeState()
{
return GetChargeState(TimeSpan.FromSeconds(1));
}
public ChargeState GetChargeState(TimeSpan timeout)
{
if (LastChargeStateChange + timeout > DateTime.Now)
{
return LastChargeState;
}
return ChargeState.Still;
}
public void ChargePowerTick(float frameTime)
{
if (Full)
{
return;
}
AddCharge(RequestCharge(frameTime));
}
/// <summary>
/// Node has become anchored to a powernet
/// </summary>
/// <param name="sender"></param>
/// <param name="eventarg"></param>
private void PowernetConnect(object sender, PowernetEventArgs eventarg)
{
eventarg.Powernet.AddPowerStorage(this);
}
/// <summary>
/// Node has had its powernet regenerated
/// </summary>
/// <param name="sender"></param>
/// <param name="eventarg"></param>
private void PowernetRegenerate(object sender, PowernetEventArgs eventarg)
{
eventarg.Powernet.AddPowerStorage(this);
}
/// <summary>
/// Node has become unanchored from a powernet
/// </summary>
/// <param name="sender"></param>
/// <param name="eventarg"></param>
private void PowernetDisconnect(object sender, PowernetEventArgs eventarg)
{
eventarg.Powernet.RemovePowerStorage(this);
}
}
}
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